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Remote mock sample

Overview

This application demonstrates how a host script can publish to the zbus in an embedded device using the UART as a bridge. The device sends information to the script running on a computer host. Then, the script sends back information when it would simulate a publish to some channel. Finally, the script decodes the data exchanged and prints it to the stdout.

With this approach, developers can implement tests using any language on a computer to talk directly via channels with threads running on a device. Furthermore, it gives the tests more controllability and observability since we can control and access what is sent and received by the script.

Building and Running

This project outputs to the console. It can be built and executed on native_sim as follows:

# From the root of the zephyr repository
west build -b native_sim samples/subsys/zbus/remote_mock
west build -t run

Sample Output

-- west build: running target run
[0/1] cd /.../zephyr/build/zephyr/zephyr.exe
uart_1 connected to pseudotty: /dev/pts/2
uart connected to pseudotty: /dev/pts/3
*** Booting Zephyr OS build zephyr-v3.1.0 ***
D: [Mock Proxy] Started.
D: [Mock Proxy RX] Started.
D: [Mock Proxy RX] Found sentence
D: Channel start_measurement claimed
D: Channel start_measurement finished
D: Publishing channel start_measurement
D: START processing channel start_measurement change
D: Channel start_measurement claimed
D: discard loopback event (channel start_measurement)
D: Channel start_measurement finished
D: FINISH processing channel start_measurement change
D: START processing channel sensor_data change
D: Channel sensor_data claimed
D: sending message to host (channel sensor_data)
D: Channel sensor_data finished
D: FINISH processing channel sensor_data change
D: sending sensor data err = 0

<repeats endlessly>

Exit execution by pressing CTRL+C.

The remote_mock.py script can be executed using the following command:

python3.8 samples/subsys/zbus/remote_mock/remote_mock.py /dev/pts/2

Note the run command above prints the value of pts port because it is running in native_sim. Look at the line indicating uart_1 connected to pseudotty: /dev/pts/2. It can be different in your case. If you are using a board, read the documentation to get the correct port destination (in Linux is something like /dev/tty... or in Windows COM...).

From the remote mock (Python script), you would see something like this:

Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 1
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 2
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 3
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 4
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 5
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 6
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 7
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 8
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 9
Proxy PUB [start_measurement] -> start measurement
Proxy NOTIFY: [sensor_data] -> sensor value 10

<continues>

Exit the remote mock script by pressing CTRL+C.